Интенсификация процессов биотехнологических систем при ультразвуковом воздействии

The research methodology for anaerobic whey fermentation was based on the fact that the community of methane-forming microorganisms consists of three types of bacteria, and the efficiency of biogas plants depends on various factors, one of which is the uniformity and homogeneity of the mass loaded i...

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Main Authors: Штепа, В.Н., Козырь, А.В., Новосад, А.А., Заец, Н.А., Shtepa, V., Kozir, A., Novosad, A., Zaiets, N., Штепа, В.М., Козир, А.В., Заець, Н.А.
Format: Article in Journal/Newspaper
Language:Russian
Published: 2020
Subjects:
интенсификация
биотехнологические системы
ультразвуковое воздействие
биогазовые процессы
микрозелень
продуктивность
intensification
biotechnological systems
ultrasonic exposure
biogas processes
microgreens
productivity
інтенсифікація
біотехнологічні системи
ультразвукова дія
біогазові процеси
мікрозелень
продуктивність
Acipenser baerii
Online Access:https://rep.polessu.by/handle/123456789/21485
id ftpolesskystuni:oai:rep.polessu.by:123456789/21485
record_format openpolar
spelling ftpolesskystuni:oai:rep.polessu.by:123456789/21485 2023-06-11T04:02:53+02:00 Интенсификация процессов биотехнологических систем при ультразвуковом воздействии Intensification of processes of biotechnological systems under ultrasonic impact Інтенсифікація процесів біотехнологічних систем при ультразвуковому впливі Штепа, В.Н. Козырь, А.В. Новосад, А.А. Заец, Н.А. Shtepa, V. Kozir, A. Novosad, A. Zaiets, N. Штепа, В.М. Козир, А.В. Заець, Н.А. 2020 application/pdf https://rep.polessu.by/handle/123456789/21485 ru rus Интенсификация процессов биотехнологических систем при ультразвуковом воздействии / В.Н. Штепа [и др.] // Енергетика і автоматика : науковий журнал. - 2020. - № 3. - С. 45-57. https://rep.polessu.by/handle/123456789/21485 открытый доступ интенсификация биотехнологические системы ультразвуковое воздействие биогазовые процессы микрозелень продуктивность intensification biotechnological systems ultrasonic exposure biogas processes microgreens productivity інтенсифікація біотехнологічні системи ультразвукова дія біогазові процеси мікрозелень продуктивність Article 2020 ftpolesskystuni 2023-05-28T07:04:27Z The research methodology for anaerobic whey fermentation was based on the fact that the community of methane-forming microorganisms consists of three types of bacteria, and the efficiency of biogas plants depends on various factors, one of which is the uniformity and homogeneity of the mass loaded into the bioreactor. When checking the effect of cavitation ultrasonic treatment on milk whey, laboratory biogas plants were justified and created, with the help of which the effect of treatment on the release of biogas and the acceleration of the rate of its production was studied. The research methodology for intensifying the growth of microgreens was based on the fact that when treated with ultrasound, seeds are disinfected, covered with microcracks from 1 to 10 microns, which leads to an increase in the flow of water and air to the seeds, and seed germination is also accelerated. The seeds of rape variety "Hephaestus" were treated in a glass flask with a volume of 1000 ml. Water from a closed water supply unit, where the Lena sturgeon (Acipenser baerii) was grown, was used as a working medium. In both cases, an electrical unit operating at a frequency of 22 kHz (power up to 76 W) was used as a source of ultrasound. Microgreen samples, which were treated with ultrasound, showed a practical result of an increase of up to 78 % (power 42 W) from ideal, and when processing with a higher power, the increase reached 97% (power 76 W). An analysis of the germination rate of samples with the same processing power showed that in samples in which the processing time was longer, the percentage of germination was higher: by 5 % when processing with a power of 76 W, and by 3 % when processing with a power of 42 W. The results obtained substantiated further research in the direction of constructing adaptive control systems for ultrasonic intensification of biotechnological processes based on artificial intelligence. Методика исследования анаэробного брожения сыворотки базировалась на том, что сообщество метанообразующих ... Article in Journal/Newspaper Acipenser baerii Digital Repository of Polessky State University
institution Open Polar
collection Digital Repository of Polessky State University
op_collection_id ftpolesskystuni
language Russian
topic интенсификация
биотехнологические системы
ультразвуковое воздействие
биогазовые процессы
микрозелень
продуктивность
intensification
biotechnological systems
ultrasonic exposure
biogas processes
microgreens
productivity
інтенсифікація
біотехнологічні системи
ультразвукова дія
біогазові процеси
мікрозелень
продуктивність
spellingShingle интенсификация
биотехнологические системы
ультразвуковое воздействие
биогазовые процессы
микрозелень
продуктивность
intensification
biotechnological systems
ultrasonic exposure
biogas processes
microgreens
productivity
інтенсифікація
біотехнологічні системи
ультразвукова дія
біогазові процеси
мікрозелень
продуктивність
Штепа, В.Н.
Козырь, А.В.
Новосад, А.А.
Заец, Н.А.
Shtepa, V.
Kozir, A.
Novosad, A.
Zaiets, N.
Штепа, В.М.
Козир, А.В.
Заець, Н.А.
Интенсификация процессов биотехнологических систем при ультразвуковом воздействии
topic_facet интенсификация
биотехнологические системы
ультразвуковое воздействие
биогазовые процессы
микрозелень
продуктивность
intensification
biotechnological systems
ultrasonic exposure
biogas processes
microgreens
productivity
інтенсифікація
біотехнологічні системи
ультразвукова дія
біогазові процеси
мікрозелень
продуктивність
description The research methodology for anaerobic whey fermentation was based on the fact that the community of methane-forming microorganisms consists of three types of bacteria, and the efficiency of biogas plants depends on various factors, one of which is the uniformity and homogeneity of the mass loaded into the bioreactor. When checking the effect of cavitation ultrasonic treatment on milk whey, laboratory biogas plants were justified and created, with the help of which the effect of treatment on the release of biogas and the acceleration of the rate of its production was studied. The research methodology for intensifying the growth of microgreens was based on the fact that when treated with ultrasound, seeds are disinfected, covered with microcracks from 1 to 10 microns, which leads to an increase in the flow of water and air to the seeds, and seed germination is also accelerated. The seeds of rape variety "Hephaestus" were treated in a glass flask with a volume of 1000 ml. Water from a closed water supply unit, where the Lena sturgeon (Acipenser baerii) was grown, was used as a working medium. In both cases, an electrical unit operating at a frequency of 22 kHz (power up to 76 W) was used as a source of ultrasound. Microgreen samples, which were treated with ultrasound, showed a practical result of an increase of up to 78 % (power 42 W) from ideal, and when processing with a higher power, the increase reached 97% (power 76 W). An analysis of the germination rate of samples with the same processing power showed that in samples in which the processing time was longer, the percentage of germination was higher: by 5 % when processing with a power of 76 W, and by 3 % when processing with a power of 42 W. The results obtained substantiated further research in the direction of constructing adaptive control systems for ultrasonic intensification of biotechnological processes based on artificial intelligence. Методика исследования анаэробного брожения сыворотки базировалась на том, что сообщество метанообразующих ...
format Article in Journal/Newspaper
author Штепа, В.Н.
Козырь, А.В.
Новосад, А.А.
Заец, Н.А.
Shtepa, V.
Kozir, A.
Novosad, A.
Zaiets, N.
Штепа, В.М.
Козир, А.В.
Заець, Н.А.
author_facet Штепа, В.Н.
Козырь, А.В.
Новосад, А.А.
Заец, Н.А.
Shtepa, V.
Kozir, A.
Novosad, A.
Zaiets, N.
Штепа, В.М.
Козир, А.В.
Заець, Н.А.
author_sort Штепа, В.Н.
title Интенсификация процессов биотехнологических систем при ультразвуковом воздействии
title_short Интенсификация процессов биотехнологических систем при ультразвуковом воздействии
title_full Интенсификация процессов биотехнологических систем при ультразвуковом воздействии
title_fullStr Интенсификация процессов биотехнологических систем при ультразвуковом воздействии
title_full_unstemmed Интенсификация процессов биотехнологических систем при ультразвуковом воздействии
title_sort интенсификация процессов биотехнологических систем при ультразвуковом воздействии
publishDate 2020
url https://rep.polessu.by/handle/123456789/21485
genre Acipenser baerii
genre_facet Acipenser baerii
op_relation Интенсификация процессов биотехнологических систем при ультразвуковом воздействии / В.Н. Штепа [и др.] // Енергетика і автоматика : науковий журнал. - 2020. - № 3. - С. 45-57.
https://rep.polessu.by/handle/123456789/21485
op_rights открытый доступ
_version_ 1768381310111318016

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